Gutter installation bracket

ABSTRACT

A device for assisting in the installation of gutters on a building, comprising a base for releasably supporting a length of gutter, a vertical stem extending downward from a first end of the base for mounting on the building, a vertical extension extending upward from a second end of the base for releasably retaining the length of gutter on the base, wherein at least one of the device is releasably mounted on the building in a position corresponding to a desired location for attaching the length of gutter to the building, the length of gutter is placed on the base between the vertical extension and the building, the gutter is attached to the building, and the device is removed from the building.

STATEMENT OF RELATED APPLICATIONS

This patent application is based on and claims priority on U.S. Provisional Patent Application No. 60/649,027 having a filing date of 1 Feb. 2005.

BACKGROUND OF THE INVENTION

1. Technical Field

The invention generally is related to the field of building construction tools and more specifically is related to tools and devices to assist in the installation of rain and water gutters on building.

2. Prior Art

Currently, the most common method for attaching gutters to a building is to have two or more people hold the gutters against the building, adjust the gutters to as close to a desired position as possible using the naked eye, and then attaching the gutters to the building. This can result in uneven gutters, poor drainage slopes, and unattractive workmanship. Several devices have been developed to assist in the attachment of gutters to buildings, as exemplified in U.S. Pat. No. 6,253,496B1 to Gilchrist, U.S. Pat. No. 5,240,234 to Lee and U.S. Pat. No. 4,579,303 to Midlik. However, there exists a need for a more convenient, less costly device for attaching gutters to buildings.

Accordingly, there is always a need for an improved device and method for attaching gutters to residences and other building that is easy and convenient to use. There also is a need for an improved device and method for attaching gutters to residences and other buildings in which the components are reduced and simplified and less costly to produce and use. It is to these needs, among other needs, that the present invention is directed.

BRIEF SUMMARY OF THE INVENTION

Briefly, the invention is a device for assisting in the installation of gutters on a building, comprising a base for releasably supporting a length of gutter, a vertical stem extending downward from a first end of the base for mounting on the building, a vertical extension extending upward from a second end of the base for releasably retaining the length of gutter on the base, wherein at least one of the device is releasably mounted on the building in a position corresponding to a desired location for attaching the length of gutter to the building, the length of gutter is placed on the base between the vertical extension and the building, the gutter is attached to the building, and the device is removed from the building.

The invention has at least two embodiments. A first embodiment is a unitary device that is releasably mounted on the building in a position corresponding to a desired location for attaching the length of gutter to the building. In this first embodiment, the base, vertical stem and vertical extension are a unitary structure. A second embodiment is a two-piece device in which the vertical stem is releasably mounted on the building in a position proximal to the desired location for attaching the length of gutter to the building and the base is adjusted to a position corresponding to a desired location for attaching the length of gutter to the building. In this second embodiment, the base and the vertical extension are a first component and the stem is a second component. The base slidably and adjustably cooperates with the vertical stem.

These features, other features and advantages of the present invention will become more apparent to those of ordinary skill in the relevant art when the following detailed description of the preferred embodiments is read in conjunction with the appended drawings in which like reference numerals represent like components throughout the several views.

BRIEF DESCRIPTION OF THE DRAWINGS

The five sheets of figures show preferred embodiments of the invention.

FIG. 1 shows three views, a side view FIG. 1A, a top view FIG. 1B and a back view FIG. 1C, of an illustrative first embodiment of a gutter installation bracket of this invention.

FIG. 2 shows a perspective view of the gutter installation bracket of FIG. 1 shown in use in installing a gutter to a residence.

FIG. 3 shows three views, a side view FIG. 3A, a top view FIG. 3B and a back view FIG. 3C, of an illustrative second embodiment of a gutter support bracket of this invention.

FIG. 4 shows four views, a front view FIG. 4A, a top view FIG. 4B, a side view FIG. 4C and a back view FIG. 4D, of an illustrative embodiment of an assembly attachment block of this invention FIG. 5 shows a perspective view of the gutter support bracket of FIG. 3 shows in conjunction with the assembly attachment block of FIG. 4 and their use in installing a gutter to a residence.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIGS. 1 to 5 illustrate two of many preferred embodiments of a gutter installation device as contemplated by this invention. FIG. 1 shows three views of an illustrative first embodiment of a gutter installation bracket 10 of this invention, with a side view shown in FIG. 1A, a top view shown in FIG. 1B and a back view shown in FIG. 1C. FIG. 2 shows a perspective view of the gutter installation bracket 10 of FIG. 1 shown in use in installing a gutter 50 to a residence 60.

FIG. 3 shows three views of an illustrative second embodiment of a gutter support bracket 100 of this invention, with a side view shown in FIG. 3A, a top view shown in FIG. 3B and a back view shown in FIG. 3C. FIG. 4 shows four views of an illustrative embodiment of an assembly attachment block 120 of this invention for use in connection with the gutter support bracket 100, with a front view shown in FIG. 4A, a top view shown in FIG. 4B, a side view shown in FIG. 4C and a back view shown in FIG. 4D. FIG. 5 shows a perspective view of the gutter support bracket 100 of FIG. 3 show in conjunction with the assembly attachment block 120 of FIG. 4 and their use in installing a gutter 50 to a residence 60.

Unitary Device Embodiment of the Invention Physical Definition of Unitary Device Embodiment of the Invention

Referring to FIG. 1, a first preferred embodiment of the gutter installation bracket 10 is to be constructed of a material that is appropriate to the size of the gutter 50 to be installed. The gutter installation bracket 10 will vary in size according to the size of the gutter 50 to be installed. An illustrative example of the gutter installation bracket 10 has a base 12 that is:

-   -   a) Four and on half (4½) inches to seven and one half (7½)         inches long;     -   b) One (1) inch to five (5) inches wide; and     -   c) One quarter (¼) inch to two (2) inches thick at the center.

On the bottom of the base 12 of the illustrative example of the gutter installation bracket 10 (at the back), there is a vertical stem 14 that:

-   -   a) Two (2) inches to five (5) inches long;     -   b) One eighth (⅛) to one and one half (1½) inches thick; and     -   c) Extends two (2) inches to five (5) inches from the bottom of         the base 12, downward.

There are two (2) holes 18 in the vertical stem 14 that are drilled through the stem 14 from front to back and are:

-   -   a) One eighth (⅛) inches to five sixteenths ( 5/16) inches wide;     -   b) One half (½) inches to one and one half (1½) inches tall;     -   c) One half (½) inch to two (2) inches (on center) from the         bottom of the base 12; and     -   d) One quarter (¼) inches to two (2) inches on center from         either side of the stem 14.

On the top of the base 12 of gutter installation bracket 10, at the front there is a vertical extension 16 that:

-   -   a) Runs from side to side;     -   b) Is one half (½) inches to one and one half (1½) inches tall;     -   c) Is one (1) inch to five (5) inches wide;     -   d) Is one eighth (⅛) to one and one half (1½) inches thick; and     -   e) Has no holes, grooves, or slots

The top of the base 12 of the gutter installation bracket 10 that does not have the vertical extension 16 attached to it is:

-   -   a) Four (4) inches to seven (7) inches long;     -   b) One (1) inch to five (5) inches wide;     -   c) One quarter (¼) inches to two (2) inches thick at the center;         and     -   d) One eighth (⅛) inches lower along both longitudinal sides         than at the center of the top of the base 12 of this area.

FIG. 1A illustrates a side view of a representative example of the gutter installation bracket 10. The base 12 is a generally rectangular component that is used to support the gutter 50 when attaching the gutter 50 to the residence 60. As shown and in use, the base 12 generally lies in a horizontal plane. The stem 14 is a generally rectangular component that is used to attach the gutter installation bracket 10 to the residence 60 when attaching the gutter 50 to the residence 60. As shown and in use, the stem 14 extends generally vertically downward from a first or back end of the base 12. At least one hole 18 extends through the stem 14 and is used in conjunction with a screw 20 to secure the gutter installation bracket 10 to the residence 60 when attaching the gutter 50 to the residence 60. The vertical extension 16 is a generally rectangular component that is used to maintain the gutter 50 on the gutter installation bracket 10, specifically on the base 12, when attaching the gutter 50 to the residence 60. As shown and in use, the vertical extension extends generally vertically upward from a second or front end of the base 12. The base 12, the stem 14, and the vertical extension 16 all preferably have the same width and material thickness.

FIG. 1B illustrates a top view of a representative example of the gutter installation bracket 10. As can be seen in this view, the base 12 and the vertical extension 16 have similar widths. Further, as can be seen by the shading in the drawing, the base 12 can have a shallow peaked configuration in which the centerline of the top surface of the base 12 is slightly higher than either edge of the base 12. This allows for easier sliding of the gutter 50 along the base 12 when installing the gutter on the residence 60. This also allows the gutter installation bracket 10 to be attached to the residence 60 at an angle off horizontal without affecting the function of the gutter installation bracket 10 in general and the base 12 in specific.

FIG. 1C illustrates a back view of a representative example of the gutter installation bracket 10. As can be seen in this view, the base 12 and the stem 14 have similar widths. This view also shows in more detail that the base 12 can have a shallow peaked configuration in which the centerline of the top surface of the base 12 is slightly higher than either edge of the base 12. This view also shows in more detail the at least one hole 18 extending through the stem 14 for use in conjunction with the screw 20 to secure the gutter installation bracket 10 to the residence 60 when attaching the gutter 50 to the residence 60.

The angles between the base 12 and the stem 14 and between the base 12 and the vertical extension 16 are shown in the figures to be in the 90° range. Although 90° is the preferred angle, this angle can range several degrees. For example, many times the gutter 50 is attached to the residence 60 at a slight downward angle sloping from the residence 60 outward to help prevent water in the gutter 50 from sloshing over the inner wall of the gutter 50 (that is, the wall of the gutter 50 proximal to and attached to the residence 60) when the gutter 50 is full, in which case, water will slosh over the outer wall of the gutter 50 (that is, the wall of the gutter distal from the residence 60). Thus, the angle between the base 12 and the stem 14 can be slightly less than 90° such that the gutter 50 will rest on the gutter installation bracket 10 at an appropriate slight angle for attachment to the residence 60. Alternatively, most gutter installers likely will angle the gutter 50 manually when attaching the gutter 50 to the residence 60 without the need for such an angle.

Description of Use of Unitary Device Embodiment of the Invention

Referring now to FIG. 2, this gutter installation bracket 10 is used to aid in the attachment of gutters 50 to a structure such as a residence 60. One gutter installation bracket 10 is used for approximately every four (4) feet of gutter 50 to be installed. If the distance is less than four (4) feet the use of two (2) gutter installation brackets 10 is appropriate. The gutter installation bracket 10 is mounted after correct measurements have been taken and the proper placement of the gutter 50 has been determined.

In use, the installer places the gutter installation bracket 10 onto the structure 60 so that the highest point of the back base 12 of the gutter installation bracket 10 is aligned with a mark (not shown) previously placed on the structure 60, typically a fascia board 62 of the structure 60. The mark previously placed on the structure 60 corresponds to where the bottom of the gutter 50 is located relative to the fascia board 62.

The installer then inserts the screw(s) 20, such as two (2) #10 by one and one half (1.5) inch to three (3) inches machine screws (supplied), through washers (supplied). Then, the installer places the screw(s) 20 with the washers in place through the holes 18 of the stem 14 of the gutter installation bracket 10. The screw(s) 20 are inserted in the holes 18 in the stem 14 from the front, that is the side of the stem 14 not in contact with the structure 60. The screw(s) 20 is(are) then tightened enough to hold the weight of the gutter installation bracket 10 and the weight of the gutter 50 being installed.

The gutter 50 then is placed onto the gutter installation bracket 10 and secured to the structure 60 using appropriate attachment brackets specified by the gutter manufacturer. The gutter installation bracket 10 is then removed from the structure 60. One or more gutter installation brackets 10 can be used at the same time. The use of two (2) or more gutter installation brackets 10 at once allows the installer to lay the gutter 50 section on more than one gutter installation bracket 10, which will support the gutter 50 section without the need for the installer to maintain a hold on the gutter 50 section, as would be the case if only one gutter installation bracket 10 was used at a time.

Physical Definition of Specific Embodiment of the Unitary Device Embodiment of the Invention

For economy of manufacture, it has been found that a gutter installation bracket 10 of a set size is suitable for the majority of gutter 50 installations. Following is a description of such a universal gutter installation bracket 10. The universal gutter installation bracket 10 preferably is manufactured of molded plastic that has a base 12 that is four and one half (4.5) inches long by three (3) inches wide and one half (½) inches thick at the center.

On bottom of the base 12 of the gutter installation bracket 10 (at the back), there is a vertical stem 14 that is three (3) inches long by one half (½) inches thick and extends three (3) inches from the bottom of the base 12, downward.

There are two (2) three sixteenths ( 3/16) inch wide by three quarter (¾) inch vertical holes 18 in the stem 14 that are one and one half (1.5) inches (on center) from the bottom of the base 12. The vertical holes 18 run from front to back through the stem 14 and are placed three quarters (¾) inches on center from either side of the stem 14.

On the top of the base 12 of gutter installation bracket 10, at the front there is a vertical extension 16 that runs from side to side that is one half (½) inch tall by three (3) inches wide by one half (½) inch thick. The vertical extension 16 has no holes, grooves, or slots.

The top of the base 12 of the gutter installation bracket 10 that does not have the vertical extension 16 attached to it is four (4) inches long by three (3) inches wide. The top of this area of the base 12 is one half (½) inch thick at the center. There is a slope that starts in the center of the top of this area and travels to either side. The sides of the top of this area of the base 12 are one eighth (⅛) inch lower than the center of the top of the base 12 of this area.

Description of Use of Specific Embodiment of the Unitary Device Embodiment of the Invention

The gutter installation bracket 10 is used to aid in the attachment of, for example, standard five (5) inch gutters 50 to, for example, a residential structure 60. One gutter installation bracket 10 is used for approximately every four (4) feet of gutter 50 to be installed. If the distance is less than four (4) feet, the use of two (2) gutter installation brackets 10 is appropriate. It is mounted after correct measurements have been taken and the proper placement of the gutter 50 has been determined. Thus, in a preferred embodiment of the use of the gutter installation bracket 10, namely, the universal gutter installation bracket 10 disclosed above, two or more gutter installation brackets 10 are used for better support of the gutter 50 when attaching the gutter 50 to the residence 60.

The use of the universal gutter installation bracket 50 is identical to the general use method disclosed above. The installer places the gutter installation brackets 10 onto the fascia board 62 so that the highest point of the back base 12 of the gutter installation brackets 10 line up with a mark previously placed on the fascia board 62. The installer inserts two (2) #10 by one and one half (1.5) inch machine screws 20 (supplied) through the washers (supplied). The installer then places the machine screws 20 with the washers in place through holes 18 of the stem 14 of the gutter installation bracket 10. The screws 18 are inserted in the holes 18 in the stem 14 from the front side.

The gutter 50 is placed on the gutter installation brackets 10 and secured to the fascia board 62 of the residence 60 using appropriate attachment brackets specified by the gutter manufacturer. The gutter installation brackets 10 then are removed and can be reused.

Two-Piece Device Embodiment of the Invention Physical Definition of Two-Piece Device Embodiment of the Invention

Referring to FIG. 3, a second preferred embodiment of the gutter installation bracket 10, namely gutter support bracket 100, is shown. This device 100 also preferably is used to aid in the attachment of standard five (5) inch gutters 50 to a residential structure 60. One device 100 is placed every four (4) feet along the fascia board 62, or the equivalent, with the first device 100 mounted four (4) feet from the downspout (not shown). The first device 100 is mounted after correct measurements have been taken and the proper placement of the device 100 has been determined. This device 100 is not designed to establish the placement of the gutters 50.

The device 100 consists of two separate components 112, 114 preferably constructed of plastic. One component is the support bracket 112. The other component is the assembly attachment block 114. The two (2) components 112, 114 are assembled together with a one quarter (¼) by one and one half (1.5) inch bolt 126. Once the two (2) components 112,114 have been assembled, they are then secured to the fascia board 62 of the house 60 with two (2) #10 screws 20. The gutter 50 is placed onto the device 100 and secured to the house 60 using appropriate attachment brackets specified by the gutter manufacturer. The device 100 is then removed.

FIG. 3A illustrates a side view of a representative example of the support bracket 112. The base 102 is a generally rectangular component that is used to support the gutter 50 when attaching the gutter 50 to the residence 60. As shown and in use, the base 102 generally lies in a horizontal plane. The stem 104 is a generally rectangular component that is used to assist in attaching the gutter support bracket 100 to the residence 60 when attaching the gutter 50 to the residence 60. As shown and in use, the stem 104 extends generally vertically downward from a first or back end of the base 102. The vertical extension 106 is a generally rectangular component that is used to maintain the gutter 50 on the support bracket 112, specifically on the base 102, when attaching the gutter 50 to the residence 60. As shown and in use, the vertical extension extends generally vertically upward from a second or front end of the base 102. The base 102 and the vertical extension 106 both preferably have the same width and material thickness, while the stem 104 has a somewhat smaller width, but a similar material thickness.

FIG. 3B illustrates a top view of a representative example of the support bracket 112. As can be seen in this view, the base 102 and the vertical extension 106 have similar widths. Further, as can be seen by the shading in the drawing, the base 102 can have a shallow peaked configuration in which the centerline of the top surface of the base 102 is slightly higher than either edge of the base 102. This allows for easier sliding of the gutter 50 along the base 102 when installing the gutter on the residence 60. This also allows the gutter support bracket 100 to be attached to the residence 60 at an angle off horizontal without affecting the function of the gutter installation bracket 100 in general and the base 102 in specific.

FIG. 3C illustrates a back view of a representative example of the support bracket 112. As can be seen in this view, the base 102 and the stem 104 do not have similar widths. This view also shows in more detail that the base 102 can have a shallow peaked configuration in which the centerline of the top surface of the base 102 is slightly higher than either edge of the base 102. This view also shows in more detail the placement of the bolt 126, which extends through the stem 104 for use in securing the assembly attachment block 114 to the support bracket 112.

The angles between the base 102 and the stem 104 and between the base 102 and the vertical extension 106 are shown in the figures to be in the 90° range. Although 90° is the preferred angle, this angle can range several degrees. For example, many times the gutter 50 is attached to the residence 60 at a slight downward angle sloping from the residence 60 outward to help prevent water in the gutter 50 from sloshing over the inner wall of the gutter 50 (that is, the wall of the gutter 50 proximal to and attached to the residence 60) when the gutter 50 is full, in which case, water will slosh over the outer wall of the gutter 50 (that is, the wall of the gutter distal from the residence 60). Thus, the angle between the base 102 and the stem 104 can be slightly less than 90° such that the gutter 50 will rest on the gutter installation bracket 100 at an appropriate slight angle for attachment to the residence 60. Alternatively, most gutter installers likely will angle the gutter 50 manually when attaching the gutter 50 to the residence 60 without the need for such an angle.

The two (2) components 112, 114 now will be disclosed in somewhat more detail in conjunction with FIGS. 4 and 5. Overall, as can be seen in the following disclosure, the gutter support bracket 100 has the same general configuration as the gutter installation bracket 10, with some differences due to the method of use.

Referring now to FIG. 3, the first component is the support bracket 112, which comprises a base 102 that in a preferred universal application embodiment is four and one half (4.5) inches long by three (3) wide inches and one (1) inch thick at the center. On bottom of the base 102 of the support bracket 112 (at the back), there is a vertical stem 104 that in the preferred universal application embodiment is one (1) inch thick by one (1) inch wide and extends three (3) inches from the bottom of the base 102, downward. The stem 104 is centered approximately one and one half (1.5) inches from either side of the bottom of the base 102 of the support bracket 112. There is a one quarter (¼) inch hole 108 drilled in the stem 104 that is one and one half (1.5) inches (on center) from the bottom of the base 102 of the support bracket 112 that travels back to front through the stem 104 and is approximately one half (½) inch (on center) from either side of the stem 104. The part of the hole 108 on the back side of the stem 104 is shaped to accept the head of a hex headed one quarter (¼) inch bolt 126. This will insure that the bolt 126 will be held secure in order to tighten the wing nut 128 on the other end of the bolt 126, thus securing the assembly attachment block 114 to the support bracket 112.

On the top of the base 102 of support bracket 112, at the front there is a vertical extension 106 that runs from side to side that in a preferred universal application embodiment is one half (½) inch tall by three (3) inches wide by one half (½) inch long. The vertical extension 106 has no holes, grooves, or slots. The word “front” can be stamped on the vertical extension 106 on the front of the support bracket 112 to identify it as the front of the support bracket 112.

The top of the base 102 of the support bracket 112 that does not have the vertical extension 106 attached to it is in a preferred universal application embodiment four (4) inches long by three (3) inches wide. The top of the base 102 is one (1) inch thick at the center. There is a downward slope that starts in the center of the top of the base 102 goes to either side. The sides of the top of the base 102 in a preferred universal application embodiment are one eighth (⅛) inch lower than the center of the top of the base 102.

FIG. 4A shows a front view of the assembly attachment block 114. As can be seen, assembly attachment block 114 is a generally rectangular component having a planar front face. Assembly attachment block 114 additionally comprises a racetrack shaped hole 132 extending vertically in approximately the horizontal center of the assembly attachment block 114. This hole 132 cooperates with the bolt 126 for attaching the support bracket 112 and the assembly attachment block 114 together. Assembly attachment block 114 also has at least one screw hole 118 extending therethrough that are used in conjunction with a screw 120 to secure the assembly attachment block 114, and therefore the gutter installation bracket 100, to the residence 60 when attaching the gutter 50 to the residence 60.

FIG. 4B shows a top view of the assembly attachment block 114. As can be seen, assembly attachment block 114 has a U-shaped cross-section comprising two arms 140 and neck 142 defining a central groove 144. Screw holes 118 are shown, one through each of the arms 140. Bolt hole 132 also is shown through neck 142. Assembly attachment block 114 is attached to the structure 60 with the back face 148 proximal to and contacting the fascia board 62 or the structure 60. Stem 104 slidably fits within central groove 144.

FIG. 4C shows a side view of the assembly attachment block 114. As can be seen, assembly attachment block 114 has a generally rectangular profile. Screw hole 120 is shown through arm 140.

FIG. 4D shows a back view of the assembly attachment block 114. As can be seen, the central groove 144 extends centrally from the top to the bottom of the assembly attachment block 114. The width of the central groove 144 generally corresponds to the width of the stem 104 and the depth of the central groove 144 corresponds generally to the thickness of the stem 104 such that the stem 104 can slidably fit within the central groove 144 when the assembly attachment block 114 is attached to the structure 60, as disclosed below, and slide vertically upwards and downwards within the central groove 144.

Assembly attachment block 114 is in a preferred universal application embodiment three (3) inches wide by three (3) inches tall by one (1) inch thick. The back of assembly attachment block 114 block has a groove, such as central groove 144, that in a preferred universal application embodiment is one (1) inch wide, that runs top to bottom and is three quarter (¾) inch deep. There is a hole 132 that is one and one half (1.5) inches from the top of the assembly attachment block 114 (on center) that is one quarter (¼) inches wide and one (1) inch top to bottom. This will allow the vertical movement of the support bracket 112 within the central groove 144, and then be secured by the tightening of wing nut 128 on bolt 126. There are two (2) holes 118 in the back part of the assembly attachment block 114 that are not grooved. One hole 118 is one and one half (1.5) inches (on center) from the top and one half (½) inch (on center) from the side of the assembly attachment block 114. This hole 118 is one eighth (⅛) inch in diameter and runs through the assembly attachment block 114 front to back. The other hole 118 is one and one half (1.5) inches (on center) from the top and one half (½) inch from the other side of assembly attachment block 114. This hole 118 is one eighth (⅛) inch in diameter and runs through the assembly attachment block 114 front to back. The left and right sides of the assembly attachment block 114 have no holes, grooves, or slots.

Description of Use of Two-Piece Device Embodiment of the Invention

Referring now to FIG. 5, a perspective view of the gutter support bracket 100 and its use in installing a gutter 50 to a residence 60 is shown. As disclosed above, this gutter installation bracket 100 is used to aid in the attachment of gutters 50 to a structure 60. One gutter installation bracket 100 is used for approximately every four (4) feet of gutter 50 to be installed. If the distance is less than four (4) feet the use of two (2) gutter installation brackets 100 is appropriate. The gutter installation bracket 100 is mounted after correct measurements have been taken and the proper placement of the gutter 50 has been determined.

In use, the support bracket 112 and the assembly attachment block 114 are connected together using the bolt 124 and the wing nut 126. The wing nut 126 is left loose so that the support bracket 112 can be adjusted. Then, the installer places the assembly attachment block 114 onto the structure 60 so that the highest point of the back side, that is the side having the central groove 144, of the assembly attachment block 114 is aligned with a mark (not shown) previously placed on the structure 60, typically a fascia board 62 of the structure 60. The mark previously placed on the structure 60 corresponds to where the bottom of the gutter 50 is located relative to the fascia board 62. In this configuration, the back side is proximal to and contacting the fascia board 62 or structure 60.

The installer then inserts the screw(s) 120, such as two (2) #10 by one and one half (1.5) inch to three (3) inches machine screws (supplied), through washers (supplied). Then, the installer places the screw(s) 120 with the washers in place through the holes 118 of the assembly attachment block 114 of the gutter support bracket 100. The screw(s) 120 are inserted in the holes 118 in the assembly attachment block 114 from the front, that is the side of the assembly attachment block 114 not in contact with the structure 60. The screw(s) 120 is(are) then tightened enough to hold the weight of the gutter support bracket 100 and the weight of the gutter 50 being installed.

The gutter 50 then is placed onto the gutter installation bracket 100 and secured to the structure 60 using appropriate attachment brackets specified by the gutter manufacturer. Prior to attaching the gutter 50 to the structure 60, the gutter 50 can be raised or lowered a certain distance by moving the support bracket 1 12 vertically upwards or downwards within the central groove 144 of the assembly attachment block 144, and locking the support bracket 112 in the desired place by tightening the wing nut 128 on the bolt 126. After the gutter 50 has been attached to the structure 60, the gutter installation bracket 100 is then removed from the structure 60. One or more gutter installation brackets 100 can be used at the same time. The use of two (2) or more gutter installation brackets 100 at once allows the installer to lay the gutter 50 section on more than one gutter installation bracket 100, which will support the gutter 50 section without the need for the installer to maintain a hold on the gutter 50 section, as would be the case if only one gutter installation bracket 100 was used at a time.

The gutter installation bracket 10 and the gutter support bracket 100 all can be manufactured from a variety of materials. Representative materials of manufacture include plastics, metals, ceramics, and composites. One of ordinary skill in the art can select a material of manufacture of sufficient strength to support the installation of gutters 50 without failing.

The gutter installation bracket 10 and the gutter support bracket 100 all can be manufactures in a variety of material thicknesses, shapes, and configurations. Again, one of ordinary skill in the art can select a thickness of material such that the components will be of sufficient strength to support the installation of gutters 50 without failing. Likewise, the shape of the various components is not limited to the generally rectangular shapes disclosed above and shown in the figures. Other shapes are suitable, including ovals, circles, triangle, and other geometric shapes. Generally speaking the shape of each component, with the exception of the top slope of the base 12, 102, has little bearing on the functionality of the device 10, 100.

Although this specification discusses the attachment of gutters 50 to a residence 60, the term residence is meant to be inclusive of all structures to which a gutter 50 can be attached. For example, other structures include buildings, sheds, apartment buildings, townhouses, brownstones, and the like.

The foregoing detailed description of the preferred embodiments, examples and the appended figures have been presented only for illustrative and descriptive purposes. They are not intended to be exhaustive and are not intended to limit the scope and spirit of the invention. The embodiments were selected and described to best explain the principles of the invention and its practical applications. One skilled in the art will recognize that many variations can be made to the invention disclosed in this specification without departing from the scope and spirit of the invention. 

1. A device for assisting in the installation of gutters on a building, comprising: a) a base for releasably supporting a length of gutter; b) a vertical stem extending downward from a first end of the base for mounting on the building; c) a vertical extension extending upward from a second end of the base for releasably retaining the length of gutter on the base, wherein at least one of the device is releasably mounted on the building in a position corresponding to a desired location for attaching the length of gutter to the building, the length of gutter is placed on the base between the vertical extension and the building, the gutter is attached to the building, and the device is removed from the building.
 2. The device as claimed in claim 1, wherein the base has a top surface having a topography having at least one slope such that when the length of gutter is placed on the base, the length of gutter is angled in such a manner that the gutter is mounted on the building at a preferred slope for allowing water in the gutter to flow to a downspout.
 3. The device as claimed in claim 1, wherein the base is a generally rectangular component that is used to support the gutter when attaching the gutter to the building, the stem is a generally rectangular component that is used to attach the device to the building when attaching the gutter to the building, and the vertical extension is a generally rectangular component that is used to maintain the gutter on the device when attaching the gutter to the building.
 4. The device as claimed in claim 3, further at least one hole extending through the stem and is used in conjunction with a screw to secure the device to the building when attaching the gutter to the building.
 5. The device as claimed in claim 4, the base, the stem, and the vertical extension all have the same width and material thickness.
 6. The device as claimed in claim 5, wherein the base has a top surface and a centerline extending on the top surface from proximal to the stem to proximal to the vertical extension, and wherein the top surface has a shallow peaked configuration in which the centerline is slightly higher than either edge of the base.
 7. The device as claimed in claim 6, wherein the base and the stem are connected to each other at approximately ninety degrees and the base and the vertical extension are connected to each other at approximately ninety degrees.
 8. A device for assisting in the installation of gutters on a building, comprising: a) a base for releasably supporting a length of gutter; b) a vertical stem extending downward from a first end of the base for mounting on the building; c) a vertical extension extending upward from a second end of the base for releasably retaining the length of gutter on the base; and d) an assembly attachment block, wherein the base, the vertical stem and the vertical extension are part of a unitary first component and the assembly attachment block is a separate second component, and, wherein the first component is releasably mounted on the building via the assembly attachment block in a position proximal to the desired location for attaching the length of gutter to the building, the first component is adjusted to a position corresponding to a desired location for attaching the length of gutter to the building, the length of gutter is placed on the base between the vertical extension and the building, the gutter is attached to the building, and the device is removed from the building.
 9. The device as claimed in claim 8, wherein: the assembly attachment block has a to, a bottom, a front surface, a back surface, and a U-shaped cross-section comprising two arms and a neck defining a central groove, the central groove extending centrally from the top to the bottom of the assembly attachment block; the central groove has a width and thickness generally corresponding to the stem such that the stem can slidably fit within the central groove when the assembly attachment block is attached to the building.
 10. The device as claimed in claim 9, wherein the base has a top surface having a topography having at least one slope such that when the length of gutter is placed on the base, the length of gutter is angled in such a manner that the gutter is mounted on the building at a preferred slope for allowing water in the gutter to flow to a downspout.
 11. The device as claimed in claim 10, wherein the base is a generally rectangular component that is used to support the gutter when attaching the gutter to the building, the stem is a generally rectangular component that is used to attach the device to the building when attaching the gutter to the building, and the vertical extension is a generally rectangular component that is used to maintain the gutter on the device when attaching the gutter to the building.
 12. The device as claimed in claim 11, further comprising at least one hole extending through the assembly attachment block and is used in conjunction with a screw to secure the assembly attachment block to the building when attaching the gutter to the building.
 13. The device as claimed in claim 12, wherein the base, the stem and the vertical extension all have the same material thickness, the base and the vertical extension have the same width, and the stem has a thickness less than the thickness of the base and the vertical extension.
 14. The device as claimed in claim 13, wherein the base has a top surface and a centerline extending on the top surface from proximal to the stem to proximal to the vertical extension, and wherein the top surface has a shallow peaked configuration in which the centerline is slightly higher than either edge of the base.
 15. The device as claimed in claim 14, wherein the base and the stem are connected to each other at approximately ninety degrees and the base and the vertical extension are connected to each other at approximately ninety degrees.
 16. A method for assisting in the installation of gutters on a building, comprising the steps of: a) releasably mounting a vertical stem on the building in a position corresponding to a desired location for attaching the length of gutter to the building: b) placing a length of gutter on a base extending horizontally from the vertical stem in a position between the vertical stem and a vertical extension for releasably supporting a length of gutter extending upward from the base for releasably retaining the length of gutter on the base; c) attaching the gutter to the building; and d) removing the device from the building.
 17. The method as claimed in claim 16, wherein the base has a top surface having a topography having at least one slope and the gutter is mounted on the building at a preferred slope for allowing water in the gutter to flow to a downspout.
 18. The method as claimed in claim 16, further comprising the step of adjusting the base to a position corresponding to a desired location for attaching the length of gutter to the building.
 19. The method as claimed in claim 18, wherein the base, the vertical stem and the vertical extension are part of a unitary first component and an assembly attachment block is a separate second component, and, wherein the first component is releasably mounted on the building via the second component in a position proximal to the desired location for attaching the length of gutter to the building, the first component is adjusted to a position corresponding to a desired location for attaching the length of gutter to the building by sliding the first component with a central slot in the second component, the length of gutter is placed on the base between the vertical extension and the building, the gutter is attached to the building, and the device is removed from the building.
 20. The method as claimed in claim 19, wherein the base has a top surface having a topography having at least one slope and the gutter is mounted on the building at a preferred slope for allowing water in the gutter to flow to a downspout. 